ADP-ribosylation of regulatory proteins is an important pathological mechanism by which various bacterial toxins affect eukaryotic cell functions. While diphtheria toxin catalyses the ADP-ribosylation of elongation factor 2, which results in inhibition of protein synthesis, cholera toxin and pertussis toxin ADP-ribosylate Ns and Ni, respectively, the GTP-binding regulatory components of the adenylate cyclase system, thereby modulating the bidirectional hormonal regulation of the adenylate cyclase. Botulinum C2 toxin is another toxin which has been reported to possess ADP-ribosyltransferase activity. This extremely toxic agent is produced by certain strains of Clostridium botulinum and induces hypotension, an increase in intestinal secretion, vascular permeability and haemorrhaging in the lungs. In contrast to botulinum neurotoxins, the botulinum C2 toxin apparently lacks any neurotoxic effects. Here we report that botulinum C2 toxin ADP-ribosylates a protein of relative molecular mass 43,000 (43K) in intact cells and in cell-free preparations. We present evidence that the 43K protein substrate is actin, which is apparently mono-ADP-ribosylated by the toxin. Botulinum C2 toxin also ADP-ribosylated purified liver G-actin, whereas liver F-actin was only poorly ADP-ribosylated and skeletal muscle actin was not ADP-ribosylated in either its G form or its F form. ADP-ribosylation of liver G-actin by botulinum C2 toxin resulted in a drastic reduction in viscosity of actin polymerized in vitro.
Two distinct monoclonal antibodies, one to pertussis toxin subunit S2, called 9G8, and another to subunits S2 and S3, called 11E6, were generated from the hybridomas of myeloma SP2/0 and spleen cells of BALB/c mice immunized mainly with the subunit S234 complex. Binding ability of 9G8 and 11E6 to the subunits was confirmed by the enzyme-linked immunosorbent assay and immunoblotting analysis. Generation of 11E6 bound to both S2 and S3 might mean that there is common antigenicity between S2 and S3. Neutralizing activities of 9G8 and 11E6 on various biological activities of pertussis toxin, including ADP-ribosyltransferase and leukocytosis-promoting, islet-activating, permeability-increasing. Chinese hamster ovary (CHO) cell-clustering, and hemagglutinating activities, were compared with those of anti-S1 monoclonal antibodies 1B7 and 3F10, which were isolated and characterized in a previous study (H. Sato, A. Ito, J. Chiba, and Y. Sato, Infect. Immun. 46:422-428, 1984). 1B7 and 3F10 neutralized ADP-ribosyltransferase activity of pertussis toxin or S1, but 9G8 and 11E6 did not. 1B7 showed very potent neutralization against leukocytosis-promoting, islet-activating, permeability-increasing, and CHO cell-clustering activities of pertussis toxin, but 3F10 did not, although anti-ADP-ribosyltransferase activities of both antibodies were identical. 11E6 neutralized leukocytosis-promoting, islet-activating, CHO cell-clustering, and hemagglutinating activities but not permeability-increasing activity. 9G8 showed slight neutralization of leukocytosis-promoting and CHO cell-clustering activities. Specific activities of 1B7 and 11E6 in each neutralization test were higher than or almost comparable to those of polyclonal antibodies to pertussis toxin. The neutralizing mechanism of 1B7 and 11E6 in leukocytosis-promoting activity was compared. 11E6 seemed to interfere with the binding of pertussis toxin to receptors on mouse spleen cells.
Clostridium botulinum type A, B, and F toxins of different molecular sizes were fed to mice to compare the oral toxicities. The progenitor toxin, a complex of a toxic and nontoxic component, of any type was higher in oral toxicity to mice than the dissociated toxic component or the derivative toxin. The former may no doubt play a more important role in the pathogenesis of food-borne botulism. The higher oral toxicity possessed by the progenitor toxin, including the exceptionally high one found with type B-L toxin, can be explained solely by the protection afforded by the nontoxic component attached to the toxic component. The possibility of the highest oral toxicity of type B-L toxin to humans is discussed.
Botulinum C2 toxin, which is composed of two nonlinked protein components, components I and II, induced fluid accumulation in mouse intestinal loops. The secretory response to C2 toxin was initiated after a lag period of 1 to 2 h and increased gradually for at least 10 h. The activity of C2 toxin was enhanced by treatment with trypsin and abolished by neutralization with anti-component I or anti-component II sera. Neither component I nor component II alone induced the fluid accumulation in intestinal loops. The intestinal loop activity was demonstrated with the culture supernatants of strains of Clostridium botulinum types C and D that produced C2 toxin, but not with culture supernatants of strains that did not. None of the botulinum type A through F neurotoxins induced fluid accumulation in mouse intestinal loops. The results indicate that, in addition to lethal and vascular permeability activities, C2 toxin has an enterotoxic activity for which the cooperation of components I and II is necessary. The fluid accumulation in intestinal loops inoculated with C2 toxin was not diminished by removal of the toxin from the loops. Moreover, the secretory response was positive when intestinal lumina were exposed to component II followed by the removal of the component and inoculation with component I, but it was negative when the intestinal lumina were exposed to component I followed by the removal of the component and inoculation with component II. These results suggest that the secretory response of mouse intestinal loops to C2 toxin is induced by the binding of component II to the epithelial cell surfaces of the intestines and the consequent binding or penetration of component I into the cells.
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